Multiphoton laser confocal microscopy uses long-wavelength lasers as the excitation source and utilizes the multiphoton absorption effect to achieve deep tissue imaging.
Viewing angle LCM technology emerged to address this need, with its core goal being to achieve seamless color consistency and image stability. This breakthrough is not the result of a single technology, but rather the result of multi-dimensional collabora
In today's increasingly prevalent intelligent devices, communication between humans and machines increasingly relies on a clear, sensitive, and reliable display screen.
The full viewing angle LCM ensures information readability from multiple viewing angles through a combination of liquid crystal physics, optical thin-film engineering, electronic drive algorithms, and system integration design.
Side-lit backlighting relies on the optimization of light guide plates and diffusion films to ensure that light can still fully penetrate the polarizer and liquid crystal layer at oblique angles, avoiding vignetting.
Synergistic optimization of dynamic backlight control and drive circuitry can further enhance contrast performance at a full viewing angle of 1 cm.
